E646ATF 查看數據表(PDF) - Semtech Corporation
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E646ATF Datasheet PDF : 14 Pages
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Edge646
TEST AND MEASUREMENT PRODUCTS
Circuit Description
Driver Description
The Edge646 driver supports three distinct programmable
driver levels; high, low, termination, and high impedance.
There are no restrictions between any of these three levels
in that all three may vary independently over the entire
operating voltage range between VCC and VEE.
The DVR EN*, DATA, and VTT EN pins are digital inputs
that control the driver (see Table 1). With DVR EN* low,
DATA determines whether the driver will force VH or VL at
DOUT. With DVR EN* high, VTT EN* controls whether the
driver goes into high impedance or drives VTT..
output which series terminates the transmission line to
the DUT. In this environment, the driver can withstand a
short to any legal DUT voltage for an indefinite period.
In a low impedance application with no additional output
series resistance, care must be exercised and systems
should be designed to check for this condition and tristate
the driver if a short is detected.
The driver does NOT have on-chip short circuit protection
or limitation circuitry.
DVR EN*
1
1
0
0
VTT EN
0
1
X
X
DATA
X
X
0
1
DOUT
HiZ
VTT
VL
VH
Table 1. Driver Truth Table
VH, VL, and VTT
VH, VL, and VTT define the logical “1”, “0”, and
“termination” levels of the driver and can be adjusted
anywhere over the range spanned by VCC to VEE. There
is no restriction between VH, VL, and VTT, in that they can
all vary independently over the entire voltage range
determined by the power supply levels.
VBB
VBB is an analog input which establishes the threshold
for all single ended digital input signals. If SW0 EN*,
SW1 EN*, or SW2 EN* are more positive than VBB, these
inputs are a digital “1". Conversely, if they are more
negative than VBB, they are a “0".
All digital inputs are wide voltage comparator inputs, so
they are technology independent. By establishing the
appropriate VBB level for the switch control inputs, and
the appropriate differential input levels for the driver digital
control inputs, the Edge646 may be driven by TTL, ECL,
CMOS, or any custom level circuitry.
SW0 EN*
The VH, VL, and VTT inputs are unbuffered in that they
also provide the driver output current, so the sources of
these voltages must have ample current drive capability.
While VTT is referred to as the termination voltage, it may
also be used as a very high “programming” level on many
memory devices.
Driver Output Protection
The Edge646 is designed to operate in a functional testing
environment where a controlled impedance (typically 50
Ω) is maintained between the pin electronics and the DUT.
In general, there will be an external resistor at the driver
SW1 EN*
SW2 EN*
VBB
Figure 1. Driver Digital Inputs
DATA
DATA*
DVR EN*
DVR EN
VTT EN
VTT EN*
Figure 2. Driver Differential Digital Inputs
Revision 2 / October 21, 2002
4
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